Method and Apparatus for Quick-Switch Fault Tolerant Backup Channel

Abstract

In a network environment, the Quality of Service becomes an important issue particularly for applications involved with real-time multimedia streaming. Any transmission failure may cause service disruption and the failure has to be quickly recovered to minimize the impact. A unified home networking standard based on existing media in home has been developed to meet the increasing demand for bandwidth, reliability and availability. However, the fault tolerant protocol adopted by the home networking standard is based on an advanced selective ARQ (Automatic Retransmission Request) protocol which may take hundreds of millisecond to establish a backup channel. Alternatively, a hot standby backup channel has to be used to achieve quick switch without data loss at the expense of increased power consumption by the hot standby channel. The present invention discloses a quick-switch modem that can quickly switch from a primary channel to a backup channel upon detection of transmission failure. The quick-switch modem contains an additional interface between the modems for the primary channel and the secondary channel. In order to achieve quick failure detection and data re-route, the quick-switch modem relies on lower layers of the network link to facilitate failure detection and data re-route. Consequently, the switching time is substantially reduced without the need of hot standby. Alternatively, the quick-switch modem can be configured for load sharing to enhance overall available bandwidth.

Description

FIELD OF THE INVENTION[0001]The present invention relates to communication systems. In particular, the present invention relates to providing fault tolerant backup channel in the MAC / PHY layer for quick switching in case of link degradation and for providing load sharing.BACKGROUND[0002]In recent years, multimedia data over internet has been growing rapidly and becomes the major traffic in various networks today. Similarly, in a home environment, the in-home network traffic also grows rapidly. Unlike the older home networks, where the traffic is mostly related to file transfer, the modern home networking often involves massive multimedia traffic. The multimedia traffic may correspond to access, by a home PC or media player, of multimedia data provided by an internet multimedia data hosting site or an internet multimedia service provider. The multimedia traffic may also be associated with access of multimedia data stored on a server, another PC, or a home media gateway. While an erro...

AI Technical Summary

Benefits of technology

[0012]FIG. 2 illustrates an exemplary backup channel configuration according to a conventional approach, where the failure detection and data re-route occur in a high layer of the network protocol.

[0013]FIG. 3 illu

Problems solved by technology

Unlike the older home networks, where the traffic is mostly related to file transfer, the modern home networking often involves massive multimedia traffic.

While an error may be more forgiving for the file transfer application, where retransmission will take care of the problem, the transmission error will cause noticeable disturbance for multimedia streaming The multimedia data usually is stored and transmitted in a compressed form.

An error in the received bit stream will often cause the error to propagate beyond the data impacted.

For example, for the inter-frame coded video data such as MPEG1/2/4 and H.264, an error in the received bit stream may cause artifacts

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